A Spectral Regularization Framework for Multi-Task Structure Learning

Part of Advances in Neural Information Processing Systems 20 (NIPS 2007)

Bibtex Metadata Paper

Authors

Andreas Argyriou, Massimiliano Pontil, Yiming Ying, Charles Micchelli

Abstract

Learning the common structure shared by a set of supervised tasks is an important practical and theoretical problem. Knowledge of this structure may lead to bet- ter generalization performance on the tasks and may also facilitate learning new tasks. We propose a framework for solving this problem, which is based on reg- ularization with spectral functions of matrices. This class of regularization prob- lems exhibits appealing computational properties and can be optimized ef(cid:2)ciently by an alternating minimization algorithm. In addition, we provide a necessary and suf(cid:2)cient condition for convexity of the regularizer. We analyze concrete ex- amples of the framework, which are equivalent to regularization with Lp matrix norms. Experiments on two real data sets indicate that the algorithm scales well with the number of tasks and improves on state of the art statistical performance.